Add to ORKGFootwear effects on the human feet have been widely studied to prevent injuries, improve sports performance, and human health through running exercise. Due to the dynamics of human joints and passive imitative feet, current automatic footwear testing systems reported in the literature are not very realistic, are limited in the imitation of running gaits, and still use the passive prosthetic foot. In addition, many studies on humanoid walking robots, orthotic ankles, and prosthetic foot for amputees only focus on the human ankle joint and walking gaits. In this project, the design and control of a realistic robotic running foot-leg testing of shoes are introduced. The designed robotic foot possesses a highe...
The majority of humanoid robots existing in literature adopt flat feet, a choice that can limit their...
Group project with Michael Polenick, Olivia Talarico, Harrison Thurgood, and Genevieve WahlertContin...
Robotic transtibial prostheses are gaining popularity, as they significantly improve amputees' ...
Available automatic footwear testing systems still lack flexibility and bio-fidelity to represent th...
Every footwear manufacturers is competing to make the best footwear in term of cushioning, flexibili...
As the shoe durability is affected directly by the dynamic force/pressure between the shoe and its w...
A main effort has been devoted in this thesis to consider the effects of the actuator components (i....
© 2016 Ficanha, Ribeiro, Dallali and Rastgaar. This paper describes the design of an ankle-foot robo...
This project focuses on the actuation of a multi-segment rigid body foot prototype capable of matchi...
Artificial intelligence is a valuable tool to develop a footwear testing machine for a robotic run...
In this paper, a mechanical transmission based on cable pulley is proposed for human-like actuation...
We present work to transfer decentralized neuromuscular control strategies of human locomotion to po...
Robotic transtibial prostheses are gaining popularity, as they significantly improve amputees' ...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
The majority of humanoid robots existing in literature adopt flat feet, a choice that can limit their...
Group project with Michael Polenick, Olivia Talarico, Harrison Thurgood, and Genevieve WahlertContin...
Robotic transtibial prostheses are gaining popularity, as they significantly improve amputees' ...
Available automatic footwear testing systems still lack flexibility and bio-fidelity to represent th...
Every footwear manufacturers is competing to make the best footwear in term of cushioning, flexibili...
As the shoe durability is affected directly by the dynamic force/pressure between the shoe and its w...
A main effort has been devoted in this thesis to consider the effects of the actuator components (i....
© 2016 Ficanha, Ribeiro, Dallali and Rastgaar. This paper describes the design of an ankle-foot robo...
This project focuses on the actuation of a multi-segment rigid body foot prototype capable of matchi...
Artificial intelligence is a valuable tool to develop a footwear testing machine for a robotic run...
In this paper, a mechanical transmission based on cable pulley is proposed for human-like actuation...
We present work to transfer decentralized neuromuscular control strategies of human locomotion to po...
Robotic transtibial prostheses are gaining popularity, as they significantly improve amputees' ...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
The purpose of this thesis is to make advances in the design of humanoid bipedal running robots. We ...
The majority of humanoid robots existing in literature adopt flat feet, a choice that can limit their...
Group project with Michael Polenick, Olivia Talarico, Harrison Thurgood, and Genevieve WahlertContin...
Robotic transtibial prostheses are gaining popularity, as they significantly improve amputees' ...